The control system includes: a plurality of controllers that respectively control a plurality of devices including at least robots; and an environment manager that is communicable with the plurality of controllers. The environment manager includes an environment information storage that stores environment information, and an information update unit that updates environment information according to an operation of the plurality of devices. Each of the plurality of controllers includes a condition monitor that monitors whether environment information stored in the environment device storage satisfies a predetermined condition and an operation execution unit that controls a corresponding device of the plurality of devices to execute a predetermined operation in a case where the environment information satisfies a predetermined condition.

A payload platform includes a platform and a castor assembly coupled to the platform. The castor assembly includes a body, a first wheel coupled to the body, and a second wheel coupled to the body. The first wheel and the second wheel are individually actuatable. A sensor is coupled to the body. A control unit is operably coupled to the sensor and operably coupled to the first wheel and to the second wheel. The sensor detects an area surrounding the platform, determines presence of obstacles, and transmits a signal to the control unit corresponding to the area surrounding the platform. The control unit directs the first wheel and the second wheel to rotate in a prescribed manner so as to achieve a prescribed movement of the platform.

Parameters specific to robot, environment, target objects and their inter-relations need to be considered by a robot to estimate cost of a task. As the existing task allocation methods assume a single utility value for a robot-task pair, combining heterogeneous parameters is a challenge. In applications like search and rescue, manual intervention may not be possible in real time. For such cases, utility calculation may be a hindrance towards automation. Also, manufacturers follow their own nomenclature and units for robotic specifications. Only domain experts can identify semantically similar terms and perform necessary conversions. Systems and methods of the present disclosure provide a structured semantic knowledge model to store and describe data in a uniform machine readable format such that semantics of those data can be interpreted by the robots and utility computation can be autonomous to make task allocation autonomous, semantic enabled and capable of self-decision without human intervention.

A system and method for intermodal container transport that utilizes swarm intelligence and the autonomous locating, lifting, supporting and moving via robots working in conjunction. A port central command locates and releases robots to the container location and then transports the container to its destination.

A payload platform includes a platform and a castor assembly coupled to the platform. The castor assembly includes a body, a first wheel coupled to the body, and a second wheel coupled to the body. The first wheel and the second wheel are individually actuatable. A sensor is coupled to the body. A control unit is operably coupled to the sensor and operably coupled to the first wheel and to the second wheel. The sensor detects an area surrounding the platform, determines presence of obstacles, and transmits a signal to the control unit corresponding to the area surrounding the platform. The control unit directs the first wheel and the second wheel to rotate in a prescribed manner so as to achieve a prescribed movement of the platform.

An industrial robot adapted for operation in a factory environment includes: sensors, actuators, a robot controller and a wireless interface configured to establish a sidelink to a further industrial robot or a group of industrial robots after a successful proximity verification. The industrial robot is configured to participate in execution of a utility task, which is carried out in collaboration with the further industrial robot or at least some members of the group of industrial robots, said collaboration including an exchange of operational data over the sidelink. An example utility task is the coordinated transfer of an object by multiple participating industrial robots. Another example is the collecting of map information by multiple participating industrial robots.

The control system includes: a plurality of controllers that respectively control a plurality of devices including at least robots; and an environment manager that is communicable with the plurality of controllers. The environment manager includes an environment information storage that stores environment information, and an information update unit that updates environment information according to an operation of the plurality of devices. Each of the plurality of controllers includes a condition monitor that monitors whether environment information stored in the environment device storage satisfies a predetermined condition and an operation execution unit that controls a corresponding device of the plurality of devices to execute a predetermined operation in a case where the environment information satisfies a predetermined condition.